FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3206731380> ?p ?o ?g. }

• W3206731380 endingPage "107589" @default.
• W3206731380 startingPage "107589" @default.
• W3206731380 abstract "Laser shock processing can induce a large number of dislocations in metal crystals by producing ultra-high strain rate deformations. This study investigated the mechanism and process of dislocation strengthening and the various dislocation configurations that play strengthening roles. The materials in this experiment were heat-treated in accord with the annealing strengthening mechanism, and the surface morphology, hardness, surface roughness, and corrosion resistance of the formed microstructure were measured and characterized, the amount of change were within 10%, which proved that the mechanical and physical properties were not degraded. Considering the possibility of using laser shock imprinting (LSI) manufacturing for actual production, the target parameters in the experiment were optimized, and it was found that with an appropriate molding depth ratio, the microstructure could be fully formed without deformation of the back surface. This discovery allowed the formed microstructure to withstand a greater axial load. Then, the changes and stress conditions in the target material during the forming process for targets with different thicknesses were explored. Finally, the prepared microstructures were used in hot embossing experiments, and the microstructures were perfectly transferred to the polymer surface, proving that the microstructures prepared by LSI have the potential to work under high-temperature and high-pressure scenarios." @default.
• W3206731380 created "2021-10-25" @default.
• W3206731380 creator A5006844151 @default.
• W3206731380 creator A5037928592 @default.
• W3206731380 creator A5047908747 @default.
• W3206731380 creator A5071811629 @default.
• W3206731380 creator A5087231379 @default.
• W3206731380 date "2022-02-01" @default.
• W3206731380 modified "2023-10-15" @default.
• W3206731380 title "Research on the forming and strengthening mechanism and performance thermal stability of microstructures induced by laser shock imprinting" @default.
• W3206731380 cites W1817592045 @default.
• W3206731380 cites W1980675410 @default.
• W3206731380 cites W1997109301 @default.
• W3206731380 cites W1999467951 @default.
• W3206731380 cites W2009464531 @default.
• W3206731380 cites W2011903295 @default.
• W3206731380 cites W2029163525 @default.
• W3206731380 cites W2042960286 @default.
• W3206731380 cites W2053826855 @default.
• W3206731380 cites W2060745895 @default.
• W3206731380 cites W2062397858 @default.
• W3206731380 cites W2064430366 @default.
• W3206731380 cites W2066480717 @default.
• W3206731380 cites W2068958865 @default.
• W3206731380 cites W2072406789 @default.
• W3206731380 cites W2075146492 @default.
• W3206731380 cites W2076244888 @default.
• W3206731380 cites W2094750730 @default.
• W3206731380 cites W2108026614 @default.
• W3206731380 cites W2137243225 @default.
• W3206731380 cites W2164888468 @default.
• W3206731380 cites W2178344769 @default.
• W3206731380 cites W2318410505 @default.
• W3206731380 cites W2489986157 @default.
• W3206731380 cites W2515399873 @default.
• W3206731380 cites W2743189669 @default.
• W3206731380 cites W2769062173 @default.
• W3206731380 cites W2807747191 @default.
• W3206731380 cites W2886817527 @default.
• W3206731380 cites W2887640661 @default.
• W3206731380 cites W2899842827 @default.
• W3206731380 cites W2954991829 @default.
• W3206731380 cites W3029842719 @default.
• W3206731380 cites W3177242916 @default.
• W3206731380 cites W1983476666 @default.
• W3206731380 cites W3113811208 @default.
• W3206731380 doi "https://doi.org/10.1016/j.optlastec.2021.107589" @default.
• W3206731380 hasPublicationYear "2022" @default.
• W3206731380 type Work @default.
• W3206731380 sameAs 3206731380 @default.
• W3206731380 citedByCount "0" @default.
• W3206731380 crossrefType "journal-article" @default.
• W3206731380 hasAuthorship W3206731380A5006844151 @default.
• W3206731380 hasAuthorship W3206731380A5037928592 @default.
• W3206731380 hasAuthorship W3206731380A5047908747 @default.
• W3206731380 hasAuthorship W3206731380A5071811629 @default.
• W3206731380 hasAuthorship W3206731380A5087231379 @default.
• W3206731380 hasConcept C107365816 @default.
• W3206731380 hasConcept C159985019 @default.
• W3206731380 hasConcept C176177977 @default.
• W3206731380 hasConcept C192562407 @default.
• W3206731380 hasConcept C2777855556 @default.
• W3206731380 hasConcept C87976508 @default.
• W3206731380 hasConceptScore W3206731380C107365816 @default.
• W3206731380 hasConceptScore W3206731380C159985019 @default.
• W3206731380 hasConceptScore W3206731380C176177977 @default.
• W3206731380 hasConceptScore W3206731380C192562407 @default.
• W3206731380 hasConceptScore W3206731380C2777855556 @default.
• W3206731380 hasConceptScore W3206731380C87976508 @default.
• W3206731380 hasLocation W32067313801 @default.
• W3206731380 hasOpenAccess W3206731380 @default.
• W3206731380 hasPrimaryLocation W32067313801 @default.
• W3206731380 hasRelatedWork W1998029461 @default.
• W3206731380 hasRelatedWork W2000966266 @default.
• W3206731380 hasRelatedWork W2006022085 @default.
• W3206731380 hasRelatedWork W2022177312 @default.
• W3206731380 hasRelatedWork W2051157305 @default.
• W3206731380 hasRelatedWork W2058945371 @default.
• W3206731380 hasRelatedWork W2230009713 @default.
• W3206731380 hasRelatedWork W2347531304 @default.
• W3206731380 hasRelatedWork W2351679394 @default.
• W3206731380 hasRelatedWork W2363152197 @default.
• W3206731380 hasVolume "146" @default.
• W3206731380 isParatext "false" @default.
• W3206731380 isRetracted "false" @default.
• W3206731380 magId "3206731380" @default.
• W3206731380 workType "article" @default.